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tiptoesWhen standing on tiptoe, the force exerted by your body remains the same, but is now concentrated in a smaller area. Pressure is measured in force divided by area. By reducing the area, you increase the pressure.
The pressure on the ground is greater when a man is standing because his weight is concentrated on a smaller area compared to when he is lying down. Standing increases the pressure because the force of his weight is divided over a smaller contact surface with the ground, leading to higher pressure.
The pressure exerted on the ground can be calculated by dividing the weight of the person by the area under one foot. In this case, the pressure would be 63 kg divided by 0.018 m^2 (since 180 cm^2 is equal to 0.018 m^2), resulting in 3500 Pa of pressure exerted on the ground by the person standing.
assuming they all weigh the same, they would be equal. if not, the heavier one would be exerting more pressure on the ground. if you are looking for an answer relating to pressure exerted in a specific spot, calculate it by surface area.
Pressure can be both internal and external. Internal pressure refers to the force exerted by a fluid within a closed system, while external pressure can be the force exerted by a substance or object outside of the system onto the system.
Yes, air pressure is a noun. It refers to the force exerted by the weight of air in the Earth's atmosphere.
The woman in high heels exerts more pressure on the ground because the smaller surface area of the heels concentrates her weight onto a smaller area, increasing the pressure. The work boots would distribute her weight over a larger surface area, resulting in less pressure on the ground.
The pressure exerted by the Earth's atmosphere is evenly distributed in all directions, so the delicate structures like flower petals are able to withstand this pressure without collapsing. Additionally, the internal structures of flower petals are supported by cell walls and structures that provide rigidity and support against external pressures.
Pressure is related to buoyant force through Archimedes' Principle, which states that the buoyant force exerted on an object immersed in a fluid is equal to the weight of the displaced fluid. The pressure exerted by a fluid on an object is a result of the buoyant force acting on that object. As the object is submerged deeper in the fluid, the pressure and buoyant force both increase.
The fundamental force that contributes to pressure in both water and the atmosphere is gravity. Gravity is responsible for pulling the molecules of water or air downwards, creating a gravitational force that results in pressure exerted on objects at the surface.
They both blanace each other when exerted on an object. Each side are equal to the force balanced by those matters
To find the amount of pressure exerted on an object, you must divide the force applied on the object by the area over which the force is distributed, following the formula Pressure = Force / Area. This calculation gives you the pressure in units such as Pascals (Pa) or pounds per square inch (psi), depending on the units used for force and area.